MAX1027BEEE-T Maxim Integrated, MAX1027BEEE-T Datasheet - Page 20
MAX1027BEEE-T
Manufacturer Part Number
MAX1027BEEE-T
Description
Analog to Digital Converters - ADC
Manufacturer
Maxim Integrated
Datasheet
1.MAX1027BCEE-T.pdf
(22 pages)
Specifications of MAX1027BEEE-T
Number Of Channels
8/4
Architecture
SAR
Conversion Rate
300 KSPs
Resolution
10 bit
Input Type
Single-Ended/Differential
Snr
Yes
Interface Type
3-Wire (SPI, Microwire), QSPI
Operating Supply Voltage
3 V
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
QSOP-16
Maximum Power Dissipation
667 mW
Minimum Operating Temperature
- 40 C
Number Of Converters
1
Voltage Reference
Internal 2.5 V or External
Integral nonlinearity (INL) is the deviation of the values
on an actual transfer function from a straight line. This
straight line can be either a best-straight-line fit or a line
drawn between the end points of the transfer function,
once offset and gain errors have been nullified. INL for
the MAX1027/MAX1029/MAX1031 is measured using
the end-point method.
Differential nonlinearity (DNL) is the difference between
an actual step width and the ideal value of 1 LSB. A
DNL error specification of less than 1 LSB guarantees
no missing codes and a monotonic transfer function.
Aperture jitter (t
the time between the samples.
Aperture delay (t
edge of the sampling clock and the instant when an
actual sample is taken.
10-Bit 300ksps ADCs with FIFO,
Temp Sensor, Internal Reference
20
Figure 8. Unipolar Transfer Function, Full Scale (FS) = V
11 . . . 111
11 . . . 110
00 . . . 011
00 . . . 010
11 . . . 101
00 . . . 001
00 . . . 000
______________________________________________________________________________________
OUTPUT CODE
(COM)
0
1
AJ
2
INPUT VOLTAGE (LSB)
) is the sample-to-sample variation in
AD
3
) is the time between the rising
Differential Nonlinearity
FULL-SCALE
TRANSITION
Integral Nonlinearity
Aperture Delay
Aperture Jitter
FS - 3/2 LSB
Definitions
1 LSB =
FS = V
ZS = V
FS
REF
COM
1024
V
REF
+ V
REF
COM
For a waveform perfectly reconstructed from digital
samples, signal-to-noise ratio (SNR) is the ratio of the
full-scale analog input (RMS value) to the RMS quanti-
zation error (residual error). The ideal, theoretical mini-
mum analog-to-digital noise is caused by quantization
error only and results directly from the ADC’s resolution
(N bits):
In reality, there are other noise sources besides quanti-
zation noise, including thermal noise, reference noise,
clock jitter, etc. Therefore, SNR is calculated by taking
the ratio of the RMS signal to the RMS noise, which
includes all spectral components minus the fundamen-
tal, the first five harmonics, and the DC offset.
Signal-to-noise plus distortion (SINAD) is the ratio of the
fundamental input frequency’s RMS amplitude to the
RMS equivalent of all other ADC output signals:
Figure 9. Bipolar Transfer Function, Full Scale (±FS) = ±V
*V
COM
011 . . . 111
011 . . . 110
000 . . . 010
000 . . . 001
000 . . . 000
111 . . . 111
111 . . . 110
111 . . . 101
100 . . . 001
100 . . . 000
SINAD (dB) = 20 x log (Signal
≥ V
OUTPUT CODE
REF
/2
-FS =
FS = V
ZS = COM
SNR = (6.02 x N + 1.76)dB
1 LSB =
- FS
Signal-to-Noise Plus Distortion
-V
REF
2
2
REF
1024
V
REF
+ V
COM
INPUT VOLTAGE (LSB)
Signal-to-Noise Ratio
COM*
RMS
/Noise
+FS - 1 LSB
RMS
REF
)
/2
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